Brian C Weidel, PhD
Brian Weidel is a research fishery biologist with the U.S. Geological Survey Great Lakes Science Center where he leads collaborative research on prey fishes and native fish restoration ecology.
Brian works with state and provincial agencies in Lake Ontario to annually assess prey fish stocks, like Alewife, which informs the decisions that sustain that lake’s world class trout and salmon fisheries. Brian’s research also addresses prey fish conservation for species like Deepwater Sculpin, a bottom-dwelling fish that inhabits depths from 80 – 240 meters (165-792 feet) and is prey for native predators including Burbot and Lake Trout. This species was likely extirpated from Lake Ontario for decades, but the research done by Brian and colleagues has documented the remarkable natural recovery of the species. Most recently Brian joined a multi-agency international effort to study and restore Great Lakes fishes from the genus Coregonus. Populations of Cisco, Lake Whitefish, and Bloater were among the Great Lakes’ most abundant fishes prior to European colonization and supported critical fisheries; but human driven changes have caused extirpations and population declines. Brian’s research is among the to quantify how habitats and conditions influence incubation success for these species that spawn in late fall and winter and emerge from the lake bottom substrates just after ice out. Research teams are evaluating the efficacy of rehabilitating lake spawning habitat substrates for improving reproduction and evaluating these actions as potential tools for coregonine restoration and conservation.
Professional Experience
Research Fishery Biologist, United States Geological Survey, Great Lakes Science Center, Lake Ontario Biological Station, 2010 – present
Postdoctoral Researcher, University of Wisconsin, Madison 2009 - 2010
Graduate Research Assistant, University of Wisconsin, Madison 2005 - 2008
Graduate Research Assistant, Cornell University, Department of Natural Resources, 2000 - 2003
Research Assistant, Cornell University, Adirondack Fishery Research Program, 1998 - 2000
Research Assistant, Cornell University, Cornell Biological Field Station, 1997 - 1998
Education and Certifications
Ph.D. in Limnology and Marine Science, Center for Limnology, Univerisity of Wisconsin-Madison, 2009
M.S. in Natural Resources, Department of Natural Resources, Cornell University, 2003
B.S. in Natural Resources, Department of Natural Resources, Cornell University, 1997
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Lake trout spawning studies: Updates, new survey, and comparison to standard September gillnet survey
Bottom trawl assessment of Lake Ontario prey fishes, 2019
2019 Status of the Lake Ontario Lower Trophic Levels
Differentiation between lake whitefish and cisco eggs based on diameter
Preliminary status of Lake Ontario Alewife based on the 2019 spring trawl survey
Lake Ontario deepwater sculpin recovery: An unexpected outcome of ecosystem change
Diet predictions of Lake Ontario salmonines based on fatty acids and correlations between their fat content and thiamine concentrations
State of lake ecosystem conference sub Indicator: Prey fish
2018 Status of the Lake Ontario lower trophic levels
Assessing the spawning ecology of fish in situ using a benthic pump sampler
Status of Mysis diluviana in Lake Ontario in 2013: lower abundance but higher fecundity than in the 1990s
Non-USGS Publications**
**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
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Filter Total Items: 112Lake trout spawning studies: Updates, new survey, and comparison to standard September gillnet survey
In Lake Ontario, lake trout restoration efforts have not established a self-sustaining population. Herein we describe efforts to evaluate standard and new surveys, and to estimate dispersal from stocking locations, to better understand impediments to natural reproduction. In 2019, lake trout egg deposition was sampled at two locations, Stony Island Reef, and Ford Shoals. No eggs were collected atAuthorsStacy Furgal, Christopher Osborne, Brian F. Lantry, Brian C. Weidel, Dimitry Gorsky, Michael ConnertonBottom trawl assessment of Lake Ontario prey fishes, 2019
Multi-agency, collaborative Lake Ontario bottom trawl surveys provide information for decision making related to Fish Community Objectives including predator-prey balance and understanding prey fish community diversity. In 2019, bottom trawl surveys in April (n = 252 tows) and October (n = 160 tows) sampled main lake and embayments at depths from 5–226 m. Combined, the surveys captured 283,383 fisAuthorsBrian C. Weidel, Brian O'Malley, Michael J. Connerton, Jeremy P. Holden, Christopher Osborne2019 Status of the Lake Ontario Lower Trophic Levels
Spring total phosphorus (TP) in 2019 was 3.2 µg/L (offshore) and 4.7 µg/L (nearshore), both all-time lows; however, there is no significant time trend in our data series (1995-2019 for nearshore; 2002-2019 for offshore). Apr/May – Oct mean TP concentrations were low at both nearshore and offshore locations (range, 3.7 – 6.5 µg/L). TP and SRP concentrations were not significantly different betweenAuthorsKristen T. Holeck, Lars G. Rudstam, Christopher Hotaling, Dave Lemon, Web Pearsall, Jana Lantry, Mike Connerton, Chris Legard, Steve LaPan, Zy Biesinger, Brian F. Lantry, Brian C. Weidel, Brian O'MalleyDifferentiation between lake whitefish and cisco eggs based on diameter
Cisco (Coregonus artedi) and lake whitefish (Coregonus clupeaformis) are native fish species of management concern in the Laurentian Great Lakes that often overlap in spawning locations and timing. Thus, species-level inference from in situ sampling requires methods to differentiate their eggs. Genetic barcoding and hatching eggs to visually identify larvae are used but can be time and cost intensAuthorsMatthew R. Paufve, Suresh Sethi, Lars G. Rudstam, Brian C. Weidel, Brian F. Lantry, Marc Chalupnicki, Kristopher Dey, Matthew HerbertPreliminary status of Lake Ontario Alewife based on the 2019 spring trawl survey
-The 2019 spring prey fish trawl survey was the most extensive fish survey ever conducted on Lake Ontario with 252 bottom trawls collecting 214,569 fish from 39 species, in main-lake and embayment habitats, at depths ranging from 5 to 225 meters (16.5 – 742.5 feet).-Alewife distribution was similar in U.S. (southern) and Canadian (northern) portions of the lake, which differs from the previous thrAuthorsBrian C. Weidel, Jeremy P. Holden, Michael J. ConnertonLake Ontario deepwater sculpin recovery: An unexpected outcome of ecosystem change
Fish population recoveries can result from ecosystem change in the absence of targeted restoration actions. In Lake Ontario, native Deepwater Sculpin Myoxecephalus thompsonii, were common in the late-1800s, but by the mid-1900s the species was possibly extirpated. During this period mineral nutrient inputs increased and piscivore abundance declined, which increased the abundance of the nonnative pAuthorsBrian C. Weidel, Michael J. Connerton, Maureen Walsh, Jeremy Holden, Kristen Holleck, Brian F. LantryDiet predictions of Lake Ontario salmonines based on fatty acids and correlations between their fat content and thiamine concentrations
Thiamine Deficiency Complex (TDC) limits early life stage survival of salmonines. Consuming fatty prey has been hypothesized as a cause of thiamine deficiency; however, this relationship has not been evaluated in the Laurentian Great Lakes where TDC occurs. We found that alewife (Alosa pseudoharengus) have higher lipid content than other common Lake Ontario prey fish. In addition, alewife were preAuthorsMatthew H. Futia, Michael J. Connerton, Brian C. Weidel, Jacques RinchardState of lake ecosystem conference sub Indicator: Prey fish
Overall Assessment Status: Fair Trends 10-Year Trend: Unchanging Long-term Trend (1973-2017): Undetermined Rationale: Great Lakes prey fish community status remains ”Fair” based on diversity and percent native species, but individual lake status varied. Both diversity and percent native metrics were classified as “Good” in Lake Superior, but “Poor” in Lake Ontario (Table 1). Lakes Huron and MichAuthorsBrian C. Weidel2018 Status of the Lake Ontario lower trophic levels
Significant Findings for Year 2018: 1) Offshore spring total phosphorus (TP) in 2018 was 7.0 µg/L; values have remained stable since 2001. Offshore soluble reactive phosphorus (SRP) remained low (1.3 µg/L) in 2018; Apr/May – Oct mean values have been stable in nearshore and offshore habitats since 1998 (range, 0.4 – 3.3 µg/L). Apr/May – Oct mean TP concentrations were low at both nearshore and offAuthorsKristen T. Holeck, Lars G. Rudstam, Christopher Hotaling, Dave Lemon, Web Pearsall, Jana Lantry, Mike Connerton, Chris Legard, Steve LaPan, Zy Biesinger, Brian F. Lantry, Brian C. WeidelAssessing the spawning ecology of fish in situ using a benthic pump sampler
In situ observations of incubating fish eggs can identify spawning sites and spawning habitat preferences, informing the ecology of fishes with benthic eggs. Suction pumps have been used to sample benthic-incubating, non-adhesive fish eggs, yet their sampling efficiency is not well known. Imperfect or systematically variable egg detection could bias resulting ecological inference if left unaddressAuthorsMatthew R. Paufve, Suresh Sethi, Brian F. Lantry, Brian C. Weidel, Lars G. RudstamStatus of Mysis diluviana in Lake Ontario in 2013: lower abundance but higher fecundity than in the 1990s
Mysis diluviana is a major component of prey fish diets in the Great Lakes, so annual production of M. diluviana is important for understanding and modeling energy flow through Great Lakes food webs. However, only three lake-wide measurements of M. diluviana annual production in Lake Ontario are currently available (1971, 1990, 1995). During 2013, lake-wide coverage of Lake Ontario was achieved duAuthorsToby J. Holda, Lars G. Rudstam, Kelly L. Bowen, Brian C. Weidel, James M. Watkins, Patrick F Sullivan, Jeremy P. Holden, Michael J. ConnertonNon-USGS Publications**
Weidel, B. C., S.R. Carpenter, J.F. Kitchell, M.J. Vander Zanden. 2011. Rates and components of carbon turnover in fish muscle: insights from bioenergetics models and a whole-lake 13C addition. Canadian Journal of Fisheries and Aquatic Sciences 68:387-399.Tetzlaff, J.C., Roth, B.R., Weidel, B.M., and J.F. Kitchell. 2011. Predation by native sunfishes (Lepomis spp.) on the invasive crayfish Orconectes rusticus in four northern Wisconsin lakes. Ecology of Freshwater Fish. 20:133-143.Carpenter, S.R., J.J. Cole, M.L. Pace, R.D. Batt, W.A. Brock, T. Cline, J. Coloso, J.R. Hodgson, J.F. Kitchell, D.A. Seekell, L. Smith and B. Weidel. 2011. Early warnings of regime shifts: A whole-ecosystem experiment. Science 332: 1079-1082.Robinson, J.M., D.C Josephson, B.C. Weidel and C.E. Kraft. 2010. Influence of variable interannual summer water temperatures on brook trout growth, consumption, reproduction, and mortality in an unstratified Adirondack lake. Transactions of the American Fisheries Society 139:685-699.Solomon, C.T., J. Cole, R. Doucett, M. Pace, N. Preston, L. Smith, and B. Weidel. 2009. The influence of dietary water on the hydrogen stable isotope ratio in aquatic consumers. Oecologia 161:313-324.Jensen, O., D. Gilroy, Z. Hogan, B. Allen, T. Hrabik, B. Weidel, S. Chandra, and M.J. Vander Zanden, 2009. Evaluating recreational fisheries for an endangered species: a case study of taimen, Hucho taimen, in Mongolia. Canadian Journal of Fisheries and Aquatic Sciences. 66:1707-1718.Biggs, R., Diebel, M., Gilroy, D., Kamarainen, A., Kornis, M., Preston, N., Schmitz, J. Uejio, C., Van De Bogert, M., Weidel, B., West, P., Zaks, D. and S. Carpenter 2009. Preparing for the future: Teaching scenario planning at the graduate level. Frontiers in Ecology and the Environment.Weidel, B., S. Carpenter, J. Cole, J. Hodgson, Kitchell, M. Pace, and C. Solomon. 2008 Carbon sources supporting fish growth in a north temperate lake. Aquatic Sciences. 70: 446-458.Zipkin, E., Sullivan, P., Cooch, E., Kraft, C., Shuter, B., Weidel, B. 2008. Overcompensatory response of a smallmouth bass population to harvest: release from competition? Canadian Journal of Fisheries and Society 65:2279-2292.Josephson, D., J. Robinson, B. Weidel and C. Kraft. 2008. Long-term retention and visibility of visible implant elastomer tags in brook trout. North American Journal of Fisheries Management. 28:1758-1761.Weidel, B., Ushikubo, T., Carpenter, S., Kita, N., Cole, J., Kitchell, J., Pace M., Valley, J. 2007. Diary of a bluegill (Lepomis macrochirus): daily δ13C and δ18O records in otoliths by ion microprobe. Canadian Journal of Fisheries and Aquatic Sciences 64:1641-1645.Pace, M.L., S.R. Carpenter, J.J. Cole, J.J. Coloso, J.F. Kitchell, J.R. Hodgson, J.J. Middelburg, N.D. Preston, C.T. Solomon, and B.C. Weidel. 2007. Does terrestrial organic carbon subsidize the planktonic food web in a clear-water lake? Limnology and Oceanography 52: 2177-2189.Weidel, B.C., Josephson, D.C., and Kraft, C.E. 2007. Fish community response to removal of introduced smallmouth bass in an oligotrophic Adirondack lake. Transactions of the American Fisheries Society 178: 778-789Lepak, J.M., C.E. Kraft, and B.C. Weidel. 2006. Rapid food web recovery in response to removal of an introduced apex predator. Canadian Journal of Fisheries and Aquatic Sciences 63: 569-575.Weidel, B.C., D.C. Josephson, C.C. Krueger. 2000. Diet and prey selection of naturalized smallmouth bass in an oligotrophic Adirondack lake. J. Freshwater Ecol. 15:411-420.Cline, T., D. Seekell, S. Carpenter, J. Hodgson, J. Kitchell, M.L. Pace, B. Weidel. 2014. Early warnings of regime shifts: evaluation of spatial indicators from a whole‐ecosystem experiment. Ecosphere 5(8).Cline, T.J., B.C. Weidel, J.F. Kitchell, and J.R. Hodgson. 2012. Growth response of largemouth bass (Micropterus salmoides) to catch-and-release angling: a 27-year mark-recapture study. Canadian Journal of Fisheries and Aquatic Sciences. 69:224-230. 10.1139/f2011-150.Ahrenstorff, T.D., O.P. Jensen, B.C. Weidel, B. Mendsaikhan, and T.R. Hrabik. 2012. Abundance, spatial distribution, and diet of endangered Hovsgol grayling (Thymallus nigrescens). Environmental Biology of Fishes.Tetzlaff, J.C., Roth, B.R., Weidel, B.M., and J.F. Kitchell. 2011. Predation by native sunfishes (Lepomis spp.) on the invasive crayfish Orconectes rusticus in four northern Wisconsin lakes. Ecology of Freshwater Fish. 20:133-143.**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
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